The Math Behind the Beauty (2024)

By M. Bourne

Jessica Simpson

On this page...

Don't miss the beauty interactive.

What has mathematics got to do with beauty? Actually, a lot. Physical attraction depends on ratio, and in particular symmetry. (See Facial attractiveness: evolutionary based research.)

Our attraction to another person's body increases if that body is symmetrical and in proportion. Likewise, if a face is in proportion, we aremore likely to notice it and find it beautiful.

Scientists believe that we perceive proportional bodies to be more healthy. This is suggested in the following famous drawing by da Vinci showing an idealized human body within a square and a circle.

Leonardo da Vinci's "Vitruvian Man",
showing the navel proportion

Leonardo da Vinci's drawings of the human body emphasised its proportion. Many have claimed the ratio of the following distances in the above Vitruvian Man image is the Golden Ratio:

(foot to navel) : (navel to head) ≈ 1.618:1

However, it's not that close at 1.505:1.

Similarly, it is believed buildings may be more attractive to some people if the proportions used follow the Golden Ratio.

Golden Ratio

The Golden Ratio (or "Golden Section") is based on Fibonacci Numbers, where every number in the sequence (after the second) is the sum ofthe previous 2 numbers:

1, 1, 2, 3, 5, 8, 13, 21, ...

We will see (below) how the Fibonnaci Numbers lead to the Golden Ratio:

Φ = 1.618 033 ...

Physical Beauty

Why do many people feel that Jessica Simpson is beautiful?

Image source

This mask of the human face is based on the Golden Ratio. The proportions of the length of the nose, the position of the eyes and the lengthof the chin, are claimed to conform to some aspect of the Golden Ratio.

When placed over the photo of Jessica Simpson, we see there is a good fit (that is, the proportions of her face fit the geometrically "nice"proportions of the mask, based on the Golden Ratio).

Her beauty is mathematical!

You can play with this concept in the following interactive.

Math of Beauty Interactive

In the following activity, you can check out the "mathematical beauty" (or not) of some famous people, or anyone you like.

Choose a mask, depending on whether the person is smiling or not, and line up the mask with the photo by dragging the mask. You can re-size the mask by dragging the bottom right corner, or the handles.

You can change the colour of the mask for better viewing.

You can use any picture on the Web. Just copy its URL (address) and paste it in the box. Click "Use my photo" and it should work.

This works best if your photos are like the ones I've used:

The face is straight (vertical)
The face is looking directly at the camera
The photo is head and shoulders
The image is medium size

Choose mask:

You can resize the mask and move it up or down, left or right.

Choose mask color:

Use your own photo

Paste the URL of a photo here

This interactive is based on the work of Dr. Stephen Marquardt(external site).

Disclaimer: Of course, inner beauty is more important than external beauty...! Each person's perception of beauty is different, and it may or may not have anything to do with the ratios implied by the mask.

The Fibonacci Sequence

Let's look at the ratio of each number in the Fibonacci sequence to the one before it:

`1/1 = 1`

`2/1 = 2`

`3/2 = 1.5`

`5/3 = 1.666...`

`8/5 = 1.6`

`13/8 = 1.625`

`21/13 = 1.61538...`

`34/21 = 1.61905...`

`55/34 = 1.61764...`

`89/55 = 1.61861...`

If we keep going, we produce an interesting number which mathematicians call "phi" (Golden Ratio or GoldenSection):

`Phi = 1.618 033 988 7...`

This ratio was used by architects and artists throughout history to produce objects of great beauty (like Michelangelo's "David" andthe Greek temples.)

The Parthenon in Greece. The ratio of the distances indicated is the Golden Ratio.

Note: The choice of the arrow placement in the above image is somewhat arbitrary. The bottom of the lower arrow is placed one one of the steps leading up to the main building, which is not overly convincing.

Phi (Φ) is like pi (π) in the sense that it is an irrational number. There is no equivalent fraction for Φ and its decimal keeps goingand never stops.

Sunflower (Image source)

The Golden Ratio also occurs in nature, in the patterns we sometimes see in sunflowers, pine cones and so on. This is largely because one of the best waysto efficiently pack things tightly together is using the Fibonacci sequence.

Conclusions

The conection with physical attractiveness and the Fibonacci sequence is interesting to consider, but is not always conclusive, and not particularly scientifically valid. See: Is Phi a Fibonacci furphy?

In many cases, it's probably a matter of finding the pattern you are looking for, rather than a meaningful observation. In short, it's a bit of fun, and not to be taken too seriously.

FAQs

What is the math equation for beauty? ›

Referred to as the “Golden Ratio”, this is the exact ratio measurement thought to be needed to achieve symmetry and beauty. This applies to all things including nature, buildings, and the human body. A person is thought to be attractive if the length of their face divided by the width of their face equals 1.618.

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What is the mathematical theory of beauty? ›

Mathematical beauty is the aesthetic pleasure derived from the abstractness, purity, simplicity, depth or orderliness of mathematics.

Why is the number 1.618 beautiful? ›

The Golden Ratio is 1: 1.618, and the full equation states that when a line is divided into two parts in a ratio of 1: 1.618, it creates the ideal proportion. The Golden Ratio has its roots in nature, from plants to snail shells, and has been used as a guide for architects and artists across the world for centuries.

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What is the mathematical expression for beauty? ›

This particular relationship is the “Golden Ratio“. It is a mathematical ratio that seems to appear recurrently in beautiful things in nature as well as in other things that are seen as “Beautiful”. The “Golden Ratio” is a mathematical ratio of 1.618:1, and the number 1.618is called “Phi“.

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What is the golden formula for beauty? ›

One concept that has repeatedly emerged as a consistent measure of beauty is the Golden Ratio, often referred to in the context of facial aesthetics as the Phi Ratio. This proportion, 1.618 to 1, is believed to provide the blueprint for what constitutes a harmoniously proportioned face.

What is the golden ratio for a woman's body? ›

Results: There is a golden ratio in the distances between xiphoid to waist and waist to the abdominal crease that is close to 1:1.66, and the waist is at the junction of the upper 2/5th and lower 3/5th of the height from xiphoid to abdominal crease.

What is math behind your beauty? ›

The Golden Ratio (or "Golden Section") is based on Fibonacci Numbers, where every number in the sequence (after the second) is the sum of the previous 2 numbers: 1, 1, 2, 3, 5, 8, 13, 21, ... We will see (below) how the Fibonnaci Numbers lead to the Golden Ratio: Φ = 1.618 033 ...

What is the true value of beauty? ›

“Beauty is about being comfortable in your own skin. It's about knowing and accepting who you are.” “The sign of a beautiful person is that they always see beauty in others.” “Beauty is not in the face; beauty is a light in the heart.”

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What is the Greek equation for beauty? ›

The Golden Ratio is a mathematical ratio of 1.618:1, and the number 1.618 is called Phi, named after the Greek sculptor Phidias.

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What is the most beautiful equation in math and why? ›

Why is e^(i*pi)=-1 considered the most beautiful equation in mathematics? e, i, pi, and -1 are all constants that can come up in lots of very different places, so it's cool that they're also interrelated in this way. On top of that it involves addition, multiplication, and exponentiation once, as well as equality.

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